Fluorinated tripodal receptors for potentiometric chloride detection in biological fluids

Pankratova, Nadezda; Cuartero, María; Jowett, Laura A.; Howe, Ethan N.W.; Gale, Philip A.; Bakker, Eric; Crespo, Gastón A.

doi:10.1016/j.bios.2017.07.001

Cited by 29 publications

(21 citation statements)

References 39 publications

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“…The chloride bindingp roperties of these compounds has been previously reported, [16] however developmentsi nb inding isotherm fitting methodology now allows more complex equilibria to be analysed. [17] The compounds were found to bind chloride with stepwise higher stoichiometry, [18] and the curve-fitting analysiso ft he binding isotherms for compounds 1-10 gave abetter fit to the 1:2receptor:anion bindingm odel than the 1:1m odel. The associationc onstants (K a )o btained (Table 1) show thiourea compounds 6-10 bind chloride with ah igher affinity compared to the analogousu rea compounds 1-5.This has been observedp reviously,and is presumably due to the more acidic nature of the thiourea hydrogen bond donor.…”

Section: Resultsmentioning

confidence: 99%

New Insights into the Anion Transport Selectivity and Mechanism of Tren‐based Tris‐(thio)ureas

Jowett

Howe

et al. 2018

Chemistry A European J

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The anion transport properties of a series of previously reported tren-based anionophores have been revisited using new assays designed to measure anion uniport. This study provides new insights into the transport mechanism and selectivity of this important class of transporters. Specifically, we report the chloride and nitrate transport selectivity of these systems and quantify sulfate transport to determine EC values for sulfate transport for the first time. Two new assays were developed to study bicarbonate transport allowing accurate quantification of chloride/bicarbonate exchange.

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Section: Resultsmentioning

confidence: 99%

New Insights into the Anion Transport Selectivity and Mechanism of Tren‐based Tris‐(thio)ureas

Jowett

Howe

et al. 2018

Chemistry A European J

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“…Compound 3 based membrane had linear response toward chloride ion from 10 −5 to 10 −1 M with slope of 55 mV/decade. The sensor exhibited fast response time and superior selectivity to previous reported chloride ionophores .…”

Section: Resultsmentioning

confidence: 99%

“…Due to the lack of selective chloride ionophores for samples that contain salicylate or thiocyanate as in the case of blood or serum samples no suitable ISEs available for chloride measurement [34]. Although it had been reported that the ion selective membranes with tren-based tris-urea bis(CF 3 ) tripodal compound exhibited the selectivity for chloride over salicylate and thiocyanate, the interfering anions are still preferred at the same concentration level with logK Cl À , Sal À (pot) = + 1.0 [34]. In this work the tripodal squaramide derivatives with different phenyl substitutes 1-3 were incorporated into plasticized PVC membranes with TDMACl as ion exchangers.…”

Section: Resultsmentioning

confidence: 99%

Tripodal Squaramide Derivative as a Neutral Chloride Ionophore for Whole Blood and Sweat Chloride Measurement

Fan¹,

Xu²,

Feng³

et al. 2020

Electroanalysis

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A tripodal squaramide derivative was synthesized and characterized as a new neural ionophore for chloride ion. Squaramide based compounds are known to be better hydrogen bonding receptors than urea derivatives because they donate four hydrogen bonds to anions, while the tripodal structure provides a 3D geometry optimum for spherical anion complexation. The ionophore demonstrated high selectivity over salicylate and heparin that are major interferences for chloride measurement in biological samples with direct potentiometric method. The new ionophore based solid‐contact electrodes were fabricated and showed the measuring range of 10−5 to 1 M chloride ion in the presence of 1 mM of salicylate and heparin with near Nernstian slope of 55 mV/decade. The sensor was successfully applied for the chloride measurement in undiluted heparinized whole blood and artificial sweat samples with our clinical analyzer.

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“…This is because the interfering ion is effectively removed from the membrane surface by diffusion into the membrane bulk. The effect is most useful with membranes that contain a high ion‐exchanger salt concentration and that exhibit a relatively high ion mobility . For relatively short contact times a reduced level of interference is observed, seemingly in defiance of the ion‐exchange equilibrium.…”

Section: Introductionmentioning

confidence: 99%

Ion‐exchange Microemulsions for Eliminating Dilute Interferences in Potentiometric Determinations

et al. 2018

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We report here for the first time on the use of functional microemulsions in potentiometric assays to remove dilute interferences from solution when measuring high concentrations of analyte. The microemulsions are similarly formulated to the ion‐selective membrane used in the measurement and act as sacrificial material. They are here stabilized by the triblock copolymer pluronic F‐127 and contain the chloride salt of the tridodecylmethylammonium cation, which also serves as anion‐exchanger in the membrane electrode. Both membrane and microemulsion are preconditioned with chloride. If an anionic interference is present at moderate concentration, the rapid equilibration with the functionalized microemulsion results in a quantitative removal. The principle is explored with salicylate as common interference in the detection of chloride in physiological samples. The data agree well to an equilibrium ion‐exchange model for the microemulsion. Salicylate levels up to millimolar can be effectively removed. Unfortunately, quaternary ammonium salt from the microemulsion is found to contaminate the ion‐selective membrane phase. Indeed, a cation‐exchanging valinomycin membrane in contact with concentrated anion‐exchanging microemulsions shows a large potential increase. This indicates that the membrane changes from cation to anion permselectivity. This contamination of the membrane by the microemulsion phase must be overcome for a practical application of the approach.

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Fluorinated tripodal receptors for potentiometric chloride detection in biological fluids

Cited by 29 publications

References 39 publications

New Insights into the Anion Transport Selectivity and Mechanism of Tren‐based Tris‐(thio)ureas

New Insights into the Anion Transport Selectivity and Mechanism of Tren‐based Tris‐(thio)ureas

Tripodal Squaramide Derivative as a Neutral Chloride Ionophore for Whole Blood and Sweat Chloride Measurement

Ion‐exchange Microemulsions for Eliminating Dilute Interferences in Potentiometric Determinations

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